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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include "analysisdefs.hxx"
#include "analysis.hxx"
#include "bessel.hxx"
#include <cppuhelper/factory.hxx>
#include <comphelper/processfactory.hxx>
#include <comphelper/random.hxx>
#include <cppuhelper/supportsservice.hxx>
#include <com/sun/star/lang/XSingleServiceFactory.hpp>
#include <o3tl/any.hxx>
#include <rtl/math.hxx>
#include <sal/macros.h>
#include <unotools/resmgr.hxx>
#include <i18nlangtag/languagetag.hxx>
#include <algorithm>
#include <cmath>
#include <float.h>
#define ADDIN_SERVICE "com.sun.star.sheet.AddIn"
#define MY_SERVICE "com.sun.star.sheet.addin.Analysis"
#define MY_IMPLNAME "com.sun.star.sheet.addin.AnalysisImpl"
using namespace ::com::sun::star;
using namespace sca::analysis;
using namespace std;
extern "C" SAL_DLLPUBLIC_EXPORT void* analysis_component_getFactory(
const char* pImplName, void* pServiceManager, void* /*pRegistryKey*/ )
{
void* pRet = nullptr;
if( pServiceManager && OUString::createFromAscii( pImplName ) == AnalysisAddIn::getImplementationName_Static() )
{
uno::Reference< lang::XSingleServiceFactory > xFactory( cppu::createOneInstanceFactory(
static_cast< lang::XMultiServiceFactory* >( pServiceManager ),
AnalysisAddIn::getImplementationName_Static(),
AnalysisAddIn_CreateInstance,
AnalysisAddIn::getSupportedServiceNames_Static() ) );
if( xFactory.is() )
{
xFactory->acquire();
pRet = xFactory.get();
}
}
return pRet;
}
OUString AnalysisAddIn::GetFuncDescrStr(const char** pResId, sal_uInt16 nStrIndex)
{
return AnalysisResId(pResId[nStrIndex - 1]);
}
void AnalysisAddIn::InitData()
{
aResLocale = Translate::Create("sca", LanguageTag(aFuncLoc));
pFD.reset(new FuncDataList);
InitFuncDataList(*pFD);
pDefLocales.reset();
}
AnalysisAddIn::AnalysisAddIn( const uno::Reference< uno::XComponentContext >& xContext ) :
aAnyConv( xContext )
{
}
AnalysisAddIn::~AnalysisAddIn()
{
}
sal_Int32 AnalysisAddIn::getDateMode(
const uno::Reference< beans::XPropertySet >& xPropSet,
const uno::Any& rAny )
{
sal_Int32 nMode = aAnyConv.getInt32( xPropSet, rAny, 0 );
if( (nMode < 0) || (nMode > 4) )
throw lang::IllegalArgumentException();
return nMode;
}
#define MAXFACTDOUBLE 300
double AnalysisAddIn::FactDouble( sal_Int32 nNum )
{
if( nNum < 0 || nNum > MAXFACTDOUBLE )
throw lang::IllegalArgumentException();
if( !pFactDoubles )
{
pFactDoubles.reset( new double[ MAXFACTDOUBLE + 1 ] );
pFactDoubles[ 0 ] = 1.0; // by default
double fOdd = 1.0;
double fEven = 2.0;
pFactDoubles[ 1 ] = fOdd;
pFactDoubles[ 2 ] = fEven;
bool bOdd = true;
for( sal_uInt16 nCnt = 3 ; nCnt <= MAXFACTDOUBLE ; nCnt++ )
{
if( bOdd )
{
fOdd *= nCnt;
pFactDoubles[ nCnt ] = fOdd;
}
else
{
fEven *= nCnt;
pFactDoubles[ nCnt ] = fEven;
}
bOdd = !bOdd;
}
}
return pFactDoubles[ nNum ];
}
OUString AnalysisAddIn::getImplementationName_Static()
{
return MY_IMPLNAME;
}
uno::Sequence< OUString > AnalysisAddIn::getSupportedServiceNames_Static()
{
return { ADDIN_SERVICE, MY_SERVICE };
}
uno::Reference< uno::XInterface > AnalysisAddIn_CreateInstance(
const uno::Reference< lang::XMultiServiceFactory >& xServiceFact )
{
return static_cast<cppu::OWeakObject*>(new AnalysisAddIn( comphelper::getComponentContext(xServiceFact) ));
}
// XServiceName
OUString SAL_CALL AnalysisAddIn::getServiceName()
{
// name of specific AddIn service
return MY_SERVICE;
}
// XServiceInfo
OUString SAL_CALL AnalysisAddIn::getImplementationName()
{
return getImplementationName_Static();
}
sal_Bool SAL_CALL AnalysisAddIn::supportsService( const OUString& aName )
{
return cppu::supportsService(this, aName);
}
uno::Sequence< OUString > SAL_CALL AnalysisAddIn::getSupportedServiceNames()
{
return getSupportedServiceNames_Static();
}
// XLocalizable
void SAL_CALL AnalysisAddIn::setLocale( const lang::Locale& eLocale )
{
aFuncLoc = eLocale;
InitData(); // change of locale invalidates resources!
}
lang::Locale SAL_CALL AnalysisAddIn::getLocale()
{
return aFuncLoc;
}
// XAddIn
OUString SAL_CALL AnalysisAddIn::getProgrammaticFuntionName( const OUString& )
{
// not used by calc
// (but should be implemented for other uses of the AddIn service)
return OUString();
}
OUString SAL_CALL AnalysisAddIn::getDisplayFunctionName( const OUString& aProgrammaticName )
{
OUString aRet;
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aProgrammaticName ) );
if( it != pFD->end() )
{
aRet = AnalysisResId(it->GetUINameID());
if( it->IsDouble() )
{
const OUString& rSuffix = it->GetSuffix();
if (!rSuffix.isEmpty())
aRet += rSuffix;
else
aRet += "_ADD";
}
}
else
{
aRet = "UNKNOWNFUNC_" + aProgrammaticName;
}
return aRet;
}
OUString SAL_CALL AnalysisAddIn::getFunctionDescription( const OUString& aProgrammaticName )
{
OUString aRet;
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aProgrammaticName ) );
if( it != pFD->end() )
aRet = GetFuncDescrStr( it->GetDescrID(), 1 );
return aRet;
}
OUString SAL_CALL AnalysisAddIn::getDisplayArgumentName( const OUString& aName, sal_Int32 nArg )
{
OUString aRet;
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aName ) );
if( it != pFD->end() && nArg <= 0xFFFF )
{
sal_uInt16 nStr = it->GetStrIndex( sal_uInt16( nArg ) );
if( nStr )
aRet = GetFuncDescrStr( it->GetDescrID(), nStr );
else
aRet = "internal";
}
return aRet;
}
OUString SAL_CALL AnalysisAddIn::getArgumentDescription( const OUString& aName, sal_Int32 nArg )
{
OUString aRet;
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aName ) );
if( it != pFD->end() && nArg <= 0xFFFF )
{
sal_uInt16 nStr = it->GetStrIndex( sal_uInt16( nArg ) );
if( nStr )
aRet = GetFuncDescrStr( it->GetDescrID(), nStr + 1 );
else
aRet = "for internal use only";
}
return aRet;
}
static const char pDefCatName[] = "Add-In";
OUString SAL_CALL AnalysisAddIn::getProgrammaticCategoryName( const OUString& aName )
{
// return non-translated strings
// return OUString( "Add-In" );
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aName ) );
OUString aRet;
if( it != pFD->end() )
{
switch( it->GetCategory() )
{
case FDCategory::DateTime: aRet = "Date&Time"; break;
case FDCategory::Finance: aRet = "Financial"; break;
case FDCategory::Inf: aRet = "Information"; break;
case FDCategory::Math: aRet = "Mathematical"; break;
case FDCategory::Tech: aRet = "Technical"; break;
}
}
else
aRet = pDefCatName;
return aRet;
}
OUString SAL_CALL AnalysisAddIn::getDisplayCategoryName( const OUString& aProgrammaticFunctionName )
{
// return translated strings, not used for predefined categories
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aProgrammaticFunctionName ) );
OUString aRet;
if( it != pFD->end() )
{
switch( it->GetCategory() )
{
case FDCategory::DateTime: aRet = "Date&Time"; break;
case FDCategory::Finance: aRet = "Financial"; break;
case FDCategory::Inf: aRet = "Information"; break;
case FDCategory::Math: aRet = "Mathematical"; break;
case FDCategory::Tech: aRet = "Technical"; break;
}
}
else
aRet = pDefCatName;
return aRet;
}
static const char* pLang[] = { "de", "en" };
static const char* pCoun[] = { "DE", "US" };
static const sal_uInt32 nNumOfLoc = SAL_N_ELEMENTS(pLang);
void AnalysisAddIn::InitDefLocales()
{
pDefLocales.reset( new lang::Locale[ nNumOfLoc ] );
for( sal_uInt32 n = 0 ; n < nNumOfLoc ; n++ )
{
pDefLocales[ n ].Language = OUString::createFromAscii( pLang[ n ] );
pDefLocales[ n ].Country = OUString::createFromAscii( pCoun[ n ] );
}
}
inline const lang::Locale& AnalysisAddIn::GetLocale( sal_uInt32 nInd )
{
if( !pDefLocales )
InitDefLocales();
if( nInd < sizeof( pLang ) )
return pDefLocales[ nInd ];
else
return aFuncLoc;
}
uno::Sequence< sheet::LocalizedName > SAL_CALL AnalysisAddIn::getCompatibilityNames( const OUString& aProgrammaticName )
{
auto it = std::find_if(pFD->begin(), pFD->end(), FindFuncData( aProgrammaticName ) );
if( it == pFD->end() )
return uno::Sequence< sheet::LocalizedName >( 0 );
const std::vector<OUString>& r = it->GetCompNameList();
sal_uInt32 nCount = r.size();
uno::Sequence< sheet::LocalizedName > aRet( nCount );
sheet::LocalizedName* pArray = aRet.getArray();
for( sal_uInt32 n = 0 ; n < nCount ; n++ )
{
pArray[ n ] = sheet::LocalizedName( GetLocale( n ), r[n] );
}
return aRet;
}
// XAnalysis
/** Workday */
sal_Int32 SAL_CALL AnalysisAddIn::getWorkday( const uno::Reference< beans::XPropertySet >& xOptions,
sal_Int32 nDate, sal_Int32 nDays, const uno::Any& aHDay )
{
if( !nDays )
return nDate;
sal_Int32 nNullDate = GetNullDate( xOptions );
SortedIndividualInt32List aSrtLst;
aSrtLst.InsertHolidayList( aAnyConv, xOptions, aHDay, nNullDate );
sal_Int32 nActDate = nDate + nNullDate;
if( nDays > 0 )
{
if( GetDayOfWeek( nActDate ) == 5 )
// when starting on Saturday, assuming we're starting on Sunday to get the jump over the weekend
nActDate++;
while( nDays )
{
nActDate++;
if( GetDayOfWeek( nActDate ) < 5 )
{
if( !aSrtLst.Find( nActDate ) )
nDays--;
}
else
nActDate++; // jump over weekend
}
}
else
{
if( GetDayOfWeek( nActDate ) == 6 )
// when starting on Sunday, assuming we're starting on Saturday to get the jump over the weekend
nActDate--;
while( nDays )
{
nActDate--;
if( GetDayOfWeek( nActDate ) < 5 )
{
if( !aSrtLst.Find( nActDate ) )
nDays++;
}
else
nActDate--; // jump over weekend
}
}
return nActDate - nNullDate;
}
/** Yearfrac */
double SAL_CALL AnalysisAddIn::getYearfrac( const uno::Reference< beans::XPropertySet >& xOpt,
sal_Int32 nStartDate, sal_Int32 nEndDate, const uno::Any& rMode )
{
double fRet = GetYearFrac( xOpt, nStartDate, nEndDate, getDateMode( xOpt, rMode ) );
RETURN_FINITE( fRet );
}
sal_Int32 SAL_CALL AnalysisAddIn::getEdate( const uno::Reference< beans::XPropertySet >& xOpt, sal_Int32 nStartDate, sal_Int32 nMonths )
{
sal_Int32 nNullDate = GetNullDate( xOpt );
ScaDate aDate( nNullDate, nStartDate, 5 );
aDate.addMonths( nMonths );
return aDate.getDate( nNullDate );
}
sal_Int32 SAL_CALL AnalysisAddIn::getWeeknum( const uno::Reference< beans::XPropertySet >& xOpt, sal_Int32 nDate, sal_Int32 nMode )
{
nDate += GetNullDate( xOpt );
sal_uInt16 nDay, nMonth, nYear;
DaysToDate( nDate, nDay, nMonth, nYear );
sal_Int32 nFirstInYear = DateToDays( 1, 1, nYear );
sal_uInt16 nFirstDayInYear = GetDayOfWeek( nFirstInYear );
return ( nDate - nFirstInYear + ( ( nMode == 1 )? ( nFirstDayInYear + 1 ) % 7 : nFirstDayInYear ) ) / 7 + 1;
}
sal_Int32 SAL_CALL AnalysisAddIn::getEomonth( const uno::Reference< beans::XPropertySet >& xOpt, sal_Int32 nDate, sal_Int32 nMonths )
{
sal_Int32 nNullDate = GetNullDate( xOpt );
nDate += nNullDate;
sal_uInt16 nDay, nMonth, nYear;
DaysToDate( nDate, nDay, nMonth, nYear );
sal_Int32 nNewMonth = nMonth + nMonths;
if( nNewMonth > 12 )
{
nYear = sal::static_int_cast<sal_uInt16>( nYear + ( nNewMonth / 12 ) );
nNewMonth %= 12;
}
else if( nNewMonth < 1 )
{
nNewMonth = -nNewMonth;
nYear = sal::static_int_cast<sal_uInt16>( nYear - ( nNewMonth / 12 ) );
nYear--;
nNewMonth %= 12;
nNewMonth = 12 - nNewMonth;
}
return DateToDays( DaysInMonth( sal_uInt16( nNewMonth ), nYear ), sal_uInt16( nNewMonth ), nYear ) - nNullDate;
}
sal_Int32 SAL_CALL AnalysisAddIn::getNetworkdays( const uno::Reference< beans::XPropertySet >& xOpt,
sal_Int32 nStartDate, sal_Int32 nEndDate, const uno::Any& aHDay )
{
sal_Int32 nNullDate = GetNullDate( xOpt );
SortedIndividualInt32List aSrtLst;
aSrtLst.InsertHolidayList( aAnyConv, xOpt, aHDay, nNullDate );
sal_Int32 nActDate = nStartDate + nNullDate;
sal_Int32 nStopDate = nEndDate + nNullDate;
sal_Int32 nCnt = 0;
if( nActDate <= nStopDate )
{
while( nActDate <= nStopDate )
{
if( GetDayOfWeek( nActDate ) < 5 && !aSrtLst.Find( nActDate ) )
nCnt++;
nActDate++;
}
}
else
{
while( nActDate >= nStopDate )
{
if( GetDayOfWeek( nActDate ) < 5 && !aSrtLst.Find( nActDate ) )
nCnt--;
nActDate--;
}
}
return nCnt;
}
sal_Int32 SAL_CALL AnalysisAddIn::getIseven( sal_Int32 nVal )
{
return ( nVal & 0x00000001 )? 0 : 1;
}
sal_Int32 SAL_CALL AnalysisAddIn::getIsodd( sal_Int32 nVal )
{
return ( nVal & 0x00000001 )? 1 : 0;
}
double SAL_CALL
AnalysisAddIn::getMultinomial( const uno::Reference< beans::XPropertySet >& xOpt, const uno::Sequence< uno::Sequence< sal_Int32 > >& aVLst,
const uno::Sequence< uno::Any >& aOptVLst )
{
ScaDoubleListGE0 aValList;
aValList.Append( aVLst );
aValList.Append( aAnyConv, xOpt, aOptVLst );
if( aValList.Count() == 0 )
return 0.0;
double nZ = 0;
double fRet = 1.0;
for( sal_uInt32 i = 0; i < aValList.Count(); ++i )
{
const double d = aValList.Get(i);
double n = (d >= 0.0) ? rtl::math::approxFloor( d ) : rtl::math::approxCeil( d );
if ( n < 0.0 )
throw lang::IllegalArgumentException();
if( n > 0.0 )
{
nZ += n;
fRet *= BinomialCoefficient(nZ, n);
}
}
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getSeriessum( double fX, double fN, double fM, const uno::Sequence< uno::Sequence< double > >& aCoeffList )
{
double fRet = 0.0;
// #i32269# 0^0 is undefined, Excel returns #NUM! error
if( fX == 0.0 && fN == 0 )
throw uno::RuntimeException("undefined expression: 0^0");
if( fX != 0.0 )
{
for( const uno::Sequence< double >& rList : aCoeffList )
{
for( const double fCoef : rList )
{
fRet += fCoef * pow( fX, fN );
fN += fM;
}
}
}
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getQuotient( double fNum, double fDenom )
{
double fRet;
if( (fNum < 0) != (fDenom < 0) )
fRet = ::rtl::math::approxCeil( fNum / fDenom );
else
fRet = ::rtl::math::approxFloor( fNum / fDenom );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getMround( double fNum, double fMult )
{
if( fMult == 0.0 )
return fMult;
double fRet = fMult * ::rtl::math::round( fNum / fMult );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getSqrtpi( double fNum )
{
double fRet = sqrt( fNum * PI );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getRandbetween( double fMin, double fMax )
{
fMin = ::rtl::math::round( fMin, 0, rtl_math_RoundingMode_Up );
fMax = ::rtl::math::round( fMax, 0, rtl_math_RoundingMode_Up );
if( fMin > fMax )
throw lang::IllegalArgumentException();
double fRet = floor(comphelper::rng::uniform_real_distribution(fMin, nextafter(fMax+1, -DBL_MAX)));
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getGcd( const uno::Reference< beans::XPropertySet >& xOpt, const uno::Sequence< uno::Sequence< double > >& aVLst, const uno::Sequence< uno::Any >& aOptVLst )
{
ScaDoubleListGT0 aValList;
aValList.Append( aVLst );
aValList.Append( aAnyConv, xOpt, aOptVLst );
if( aValList.Count() == 0 )
return 0.0;
double f = aValList.Get(0);
for( sal_uInt32 i = 1; i < aValList.Count(); ++i )
{
f = GetGcd( aValList.Get(i), f );
}
RETURN_FINITE( f );
}
double SAL_CALL AnalysisAddIn::getLcm( const uno::Reference< beans::XPropertySet >& xOpt, const uno::Sequence< uno::Sequence< double > >& aVLst, const uno::Sequence< uno::Any >& aOptVLst )
{
ScaDoubleListGE0 aValList;
aValList.Append( aVLst );
aValList.Append( aAnyConv, xOpt, aOptVLst );
if( aValList.Count() == 0 )
return 0.0;
double f = rtl::math::approxFloor( aValList.Get(0) );
if( f < 0.0 )
throw lang::IllegalArgumentException();
if( f == 0.0 )
return f;
for( sal_uInt32 i = 1; i < aValList.Count(); ++i )
{
double fTmp = rtl::math::approxFloor( aValList.Get(i) );
if( fTmp < 0.0 )
throw lang::IllegalArgumentException();
f = fTmp * f / GetGcd( fTmp, f );
if( f == 0.0 )
return f;
}
RETURN_FINITE( f );
}
double SAL_CALL AnalysisAddIn::getBesseli( double fNum, sal_Int32 nOrder )
{
double fRet = sca::analysis::BesselI( fNum, nOrder );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getBesselj( double fNum, sal_Int32 nOrder )
{
double fRet = sca::analysis::BesselJ( fNum, nOrder );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getBesselk( double fNum, sal_Int32 nOrder )
{
if( nOrder < 0 || fNum <= 0.0 )
throw lang::IllegalArgumentException();
double fRet = sca::analysis::BesselK( fNum, nOrder );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getBessely( double fNum, sal_Int32 nOrder )
{
if( nOrder < 0 || fNum <= 0.0 )
throw lang::IllegalArgumentException();
double fRet = sca::analysis::BesselY( fNum, nOrder );
RETURN_FINITE( fRet );
}
const double SCA_MAX2 = 511.0; // min. val for binary numbers (9 bits + sign)
const double SCA_MIN2 = -SCA_MAX2-1.0; // min. val for binary numbers (9 bits + sign)
const double SCA_MAX8 = 536870911.0; // max. val for octal numbers (29 bits + sign)
const double SCA_MIN8 = -SCA_MAX8-1.0; // min. val for octal numbers (29 bits + sign)
const double SCA_MAX16 = 549755813888.0; // max. val for hexadecimal numbers (39 bits + sign)
const double SCA_MIN16 = -SCA_MAX16-1.0; // min. val for hexadecimal numbers (39 bits + sign)
const sal_Int32 SCA_MAXPLACES = 10; // max. number of places
OUString SAL_CALL AnalysisAddIn::getBin2Oct( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 2, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
double SAL_CALL AnalysisAddIn::getBin2Dec( const OUString& aNum )
{
double fRet = ConvertToDec( aNum, 2, SCA_MAXPLACES );
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getBin2Hex( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 2, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
OUString SAL_CALL AnalysisAddIn::getOct2Bin( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 8, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
double SAL_CALL AnalysisAddIn::getOct2Dec( const OUString& aNum )
{
double fRet = ConvertToDec( aNum, 8, SCA_MAXPLACES );
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getOct2Hex( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 8, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
OUString SAL_CALL AnalysisAddIn::getDec2Bin( const uno::Reference< beans::XPropertySet >& xOpt, sal_Int32 nNum, const uno::Any& rPlaces )
{
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( nNum, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
OUString SAL_CALL AnalysisAddIn::getDec2Oct( const uno::Reference< beans::XPropertySet >& xOpt, sal_Int32 nNum, const uno::Any& rPlaces )
{
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( nNum, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
OUString SAL_CALL AnalysisAddIn::getDec2Hex( const uno::Reference< beans::XPropertySet >& xOpt, double fNum, const uno::Any& rPlaces )
{
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fNum, SCA_MIN16, SCA_MAX16, 16, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
OUString SAL_CALL AnalysisAddIn::getHex2Bin( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 16, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN2, SCA_MAX2, 2, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
double SAL_CALL AnalysisAddIn::getHex2Dec( const OUString& aNum )
{
double fRet = ConvertToDec( aNum, 16, SCA_MAXPLACES );
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getHex2Oct( const uno::Reference< beans::XPropertySet >& xOpt, const OUString& aNum, const uno::Any& rPlaces )
{
double fVal = ConvertToDec( aNum, 16, SCA_MAXPLACES );
sal_Int32 nPlaces = 0;
bool bUsePlaces = aAnyConv.getInt32( nPlaces, xOpt, rPlaces );
return ConvertFromDec( fVal, SCA_MIN8, SCA_MAX8, 8, nPlaces, SCA_MAXPLACES, bUsePlaces );
}
sal_Int32 SAL_CALL AnalysisAddIn::getDelta( const uno::Reference< beans::XPropertySet >& xOpt, double fNum1, const uno::Any& rNum2 )
{
return sal_Int32(fNum1 == aAnyConv.getDouble( xOpt, rNum2, 0.0 ));
}
double SAL_CALL AnalysisAddIn::getErf( const uno::Reference< beans::XPropertySet >& xOpt, double fLL, const uno::Any& rUL )
{
double fUL, fRet;
bool bContainsValue = aAnyConv.getDouble( fUL, xOpt, rUL );
fRet = bContainsValue ? (Erf( fUL ) - Erf( fLL )) : Erf( fLL );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getErfc( double f )
{
double fRet = Erfc( f );
RETURN_FINITE( fRet );
}
sal_Int32 SAL_CALL AnalysisAddIn::getGestep( const uno::Reference< beans::XPropertySet >& xOpt, double fNum, const uno::Any& rStep )
{
return sal_Int32(fNum >= aAnyConv.getDouble( xOpt, rStep, 0.0 ));
}
double SAL_CALL AnalysisAddIn::getFactdouble( sal_Int32 nNum )
{
double fRet = FactDouble( nNum );
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getImabs( const OUString& aNum )
{
double fRet = Complex( aNum ).Abs();
RETURN_FINITE( fRet );
}
double SAL_CALL AnalysisAddIn::getImaginary( const OUString& aNum )
{
double fRet = Complex( aNum ).Imag();
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getImpower( const OUString& aNum, double f )
{
Complex z( aNum );
z.Power( f );
return z.GetString();
}
double SAL_CALL AnalysisAddIn::getImargument( const OUString& aNum )
{
double fRet = Complex( aNum ).Arg();
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getImcos( const OUString& aNum )
{
Complex z( aNum );
z.Cos();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImdiv( const OUString& aDivid, const OUString& aDivis )
{
Complex z( aDivid );
z.Div( Complex( aDivis ) );
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImexp( const OUString& aNum )
{
Complex z( aNum );
z.Exp();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImconjugate( const OUString& aNum )
{
Complex z( aNum );
z.Conjugate();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImln( const OUString& aNum )
{
Complex z( aNum );
z.Ln();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImlog10( const OUString& aNum )
{
Complex z( aNum );
z.Log10();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImlog2( const OUString& aNum )
{
Complex z( aNum );
z.Log2();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImproduct( const uno::Reference< beans::XPropertySet >&, const uno::Sequence< uno::Sequence< OUString > >& aNum1, const uno::Sequence< uno::Any >& aNL )
{
ComplexList z_list;
z_list.Append( aNum1 );
z_list.Append( aNL );
if( z_list.empty() )
return Complex( 0 ).GetString();
Complex z = z_list.Get(0);
for( sal_uInt32 i = 1; i < z_list.Count(); ++i )
z.Mult( z_list.Get(i) );
return z.GetString();
}
double SAL_CALL AnalysisAddIn::getImreal( const OUString& aNum )
{
double fRet = Complex( aNum ).Real();
RETURN_FINITE( fRet );
}
OUString SAL_CALL AnalysisAddIn::getImsin( const OUString& aNum )
{
Complex z( aNum );
z.Sin();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsub( const OUString& aNum1, const OUString& aNum2 )
{
Complex z( aNum1 );
z.Sub( Complex( aNum2 ) );
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsum( const uno::Reference< beans::XPropertySet >&, const uno::Sequence< uno::Sequence< OUString > >& aNum1, const uno::Sequence< uno::Any >& aFollowingPars )
{
ComplexList z_list;
z_list.Append( aNum1 );
z_list.Append( aFollowingPars );
if( z_list.empty() )
return Complex( 0 ).GetString();
Complex z( z_list.Get(0) );
for( sal_uInt32 i = 1; i < z_list.Count(); ++i )
z.Add( z_list.Get(i) );
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsqrt( const OUString& aNum )
{
Complex z( aNum );
z.Sqrt();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImtan( const OUString& aNum )
{
Complex z( aNum );
z.Tan();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsec( const OUString& aNum )
{
Complex z( aNum );
z.Sec();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImcsc( const OUString& aNum )
{
Complex z( aNum );
z.Csc();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImcot( const OUString& aNum )
{
Complex z( aNum );
z.Cot();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsinh( const OUString& aNum )
{
Complex z( aNum );
z.Sinh();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImcosh( const OUString& aNum )
{
Complex z( aNum );
z.Cosh();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImsech( const OUString& aNum )
{
Complex z( aNum );
z.Sech();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getImcsch( const OUString& aNum )
{
Complex z( aNum );
z.Csch();
return z.GetString();
}
OUString SAL_CALL AnalysisAddIn::getComplex( double fR, double fI, const uno::Any& rSuff )
{
bool bi;
switch( rSuff.getValueTypeClass() )
{
case uno::TypeClass_VOID:
bi = true;
break;
case uno::TypeClass_STRING:
{
auto pSuff = o3tl::forceAccess<OUString>(rSuff);
bi = *pSuff == "i" || pSuff->isEmpty();
if( !bi && *pSuff != "j" )
throw lang::IllegalArgumentException();
}
break;
default:
throw lang::IllegalArgumentException();
}
return Complex( fR, fI, bi ? 'i' : 'j' ).GetString();
}
double SAL_CALL AnalysisAddIn::getConvert( double f, const OUString& aFU, const OUString& aTU )
{
if( !pCDL )
pCDL.reset(new ConvertDataList());
double fRet = pCDL->Convert( f, aFU, aTU );
RETURN_FINITE( fRet );
}
OUString AnalysisAddIn::AnalysisResId(const char* pResId)
{
return Translate::get(pResId, aResLocale);
}
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